JP3977441B2 - Transport of short message service (SMS) messages within telecommunication networks - Google Patents

Description

The present invention relates to mobile telecommunications networks, and more particularly to the transmission of short message service (SMS) messages using intelligent network (IN) services.
With the continuous development of prior art telecommunications technology, the concept of intelligent network (IN) and related services has been developed to provide intelligent and advanced telecommunications services to subscribers. The basic concept behind IN is to centralize the service to retrieve “information” from each local switch or service switching point (SSP) and provide that information to the service control point (SCP). By concentrating special subscriber services in the SCP, it is connected to multiple SSPs that are connected to that SCP by simply adding a new service to only one location (this SCP). It becomes possible to provide to all subscribers. As a result, a large number of subscribers connected by multiple SSPs can be served from a single SCP.
Initially, IN was a concept implemented only within a public switched telephone network (PSTN) serving wired telecommunications subscribers. Thus, SSPs or local exchanges (LEs) have communicated signals based on a signal control connection (SCCP) with no connection to the associated SCP to provide service to the associated wired subscriber. With the introduction of digital mobile telecommunications networks, such as the public land mobile telephone network (PLMN) based on the Mobile Global System (GSM), IN technology is also being implemented in wireless telecommunications environments. Accordingly, the mobile communication switching center (MSC) in the PLMN communicates with the associated intelligent network to provide IN services to the associated mobile subscriber.
One IN service includes a private number plan (PNP) function. A number of mobile subscribers are associated with each other, and each associated mobile subscriber is identified by a short number (or more commonly known as an extension number). As a result, their associated mobile station functions are similar to private branch exchange (PBX) subscribers, where one mobile subscriber simply has a short number associated with a call connection with another associated mobile subscriber. Can be established just by dialing. Other such IN services include outgoing call prevention, private user groups, constraint invalidation, and call diversion.
With the introduction of GSM digital telecommunications systems, a number of advanced non-conversational services were further provided to mobile subscribers. One such service includes a short message service. By using SMS messages, mobile subscribers can communicate text messages with another mobile station or SMS terminal without establishing a call connection between them. The first mobile subscriber simply types the desired text message, indicates the destination number associated with the destination mobile subscriber, and sends an SMS message containing the desired text message.
However, one drawback or inefficiency associated with existing systems is that the telecommunications network that serves the service uses the first network to provide IN services and the second network to communicate SMS messages. is there. As a result, even if the mobile subscriber has PNP functionality, the mobile subscriber currently sends an SMS message to another associated mobile subscriber using the associated short number. I can't do that. Furthermore, even if the mobile subscriber has an outgoing call prevention function that prevents an external call connection to a specific destination number, the mobile telecommunications network will send an SMS message to that same number. It cannot be prevented. This is because the mobile telecommunications network that forwards SMS messages is not currently interfaced with the associated IN.
Therefore, there is a need for a mechanism that allows SMS messages to access existing IN services within a mobile telecommunications network.
SUMMARY OF THE INVENTION The present invention utilizes an IN service associated with either a calling subscriber or a receiving subscriber to communicate unstructured data between each other in a mobile telecommunications network. A method and apparatus are disclosed.
An indication that unstructured data, eg, short message service data, is transmitted is received at a mobile switching center (MSC) serving individual mobile subscribers. A determination is then made as to whether either the calling subscriber or the dialed B number is associated with the IN service. Instead of sending SMS data directly to the relevant short message service center (SMS-C) in response to determining that it is involved, the identification number of the service switching point (SSP) associated with the determined IN service Next, the determination for confirming is performed. The received SMS data is subsequently forwarded to the determined SSP to use the IN service. The SMS data is included in an integrated digital network user part (ISUP) signal and transmitted to the connected SSP. By requesting a forward command from the associated service control point (SCP), the SSP applies the appropriate IN service to the received SMS data.
[Brief description of the drawings]
A more complete understanding of the method and apparatus of the present invention will be obtained by reference to the following detailed description taken in conjunction with the accompanying drawings.
FIG. 1 is a block diagram of a first telecommunications network illustrating the routing of short message service (SMS) messages between mobile stations.
FIG. 2 is a block diagram of a second telecommunications network illustrating the provision of intelligent network (IN) services to mobile subscribers.
FIG. 3 is a block diagram of a first telecommunications network interfaced with a second telecommunications network for providing IN services to mobile stations that are sending SMS messages.
FIG. 4 is a signal sequence diagram when an IN service is provided to a mobile station transmitting an SMS message in a mobile telecommunications network.
FIG. 5 is a flow diagram that describes the steps performed in routing an SMS message using an associated IN service within a mobile telecommunications network.
DETAILED DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a first telecommunications network 10 illustrating short message service (SMS) routing between two mobile stations. The first mobile station 20a is directed to a first mobile communication switching center / visitor location register (MSC / VLR) 30a that is currently serving unstructured data, eg, an SMS message, to the first mobile station 20a. To send. The transmitted SMS message includes the destination B number and is transported over the control channel 40, eg, the standalone dedicated control channel (SDCCH), to the serving MSC / VLR 30a. The serving MSC / VLR 30a then analyzes the received B number and retransmits the received SMS data to the short message service center (SMS-C) 50 (signal 60) based thereon. The signal 60 includes a signal based on an integrated digital network user part (ISUP), for example, received SMS data included in an initial address message (IAM). 7 (SS7) is transported to SMS-C 50 over a telecommunication network. Subsequently, the SMS-C 50 confirms that the SMS data has been received by returning a positive confirmation signal 70 to the serving MSC / VLR 30a.
The SMS-C 50 then forwards the received SMS data towards the gateway mobile switching center (GMSC) 80 associated with the indicated B number (signal 90). GMSC 80 is a conventional GMSC that handles individual telecommunications nodes (known as SMS-GMSC) for handling only SMS messages or handles incoming call connections as well as SMS messages. It doesn't matter. The GMSC 80 may also be equipped with an interworking function (IWF) for processing non-voice data transmissions. Since the receiving mobile station is not associated with a fixed local exchange, the GMSC 80 calls the home location register (HLR) 100 associated with the receiving mobile station to determine the current location of the mobile station. It is necessary to confirm. Accordingly, a signal 110 based on the mobile communication application unit (MAP), for example a routing command transmission (SRI) signal, is transmitted from the GMSC 80 to the associated HLR 100. The HLR 100 then communicates with the second MSC / VLR 30b currently serving the receiving mobile station 20b to request a roaming number (communication is not shown in FIG. 1, but in FIG. Is shown). The received roaming number representing the receiving mobile station 20b currently moving in the second MSC / VLR service area is then returned to the GMSC 80 via another MAP based signal 120.
Using the received roaming number, the GMSC 80 forwards the received SMS data to the second MSC / VLR 30b currently serving the receiving mobile station 20b (signal 130). The second MSC / VLR 30b then communicates the delivered SMS data with the receiving mobile station 20b via the SDCCH channel 40. A positive acknowledgment signal 140 is then returned to GMSC 80 indicating that the data has been successfully distributed. Subsequently, GMSC 80 forwards a positive confirmation signal 140 to SMS-C 50. As a result, unstructured data, for example a user-defined text message, establishes a circuit connection on the associated telecommunications network between the first mobile station 20 and the second mobile station 20b. Communicated without
Since the system and method of the present invention can be applied to data in which all structures in the telecommunication network are not unified, the description of the present invention based on the SMS message presented here limits the scope of the present invention. It will be understood that this is for the purpose of illustrating the invention, not the subject matter. The present invention is equally applicable to other data whose structure is not unified, for example, an incidental service data (USSD) message whose structure is not unified.
FIG. 2 is a block diagram of a second telecommunications network 200 illustrating the provision of intelligent network (IN) services to mobile subscribers. As shown, a personal number plan (PNP) function is associated with the first mobile station 20a. The first mobile station 20a dials the short number (similar to a PBX extension) associated with the second mobile station 20b and requests a call connection between them. The call connection request is first received by the first MSC / VLR 30a serving the first mobile station 20a. If it is determined that the first mobile station is associated with the IN service, the first MSC / VLR 30a is associated with an ISUP-based signal 65, eg, an IAM associated service switching point (SSP, also known as service switching function) (Hereinafter collectively referred to as SSF / SSP) 210. The SSF / SSP 210 then queries the associated service control point (SCP, also known as the service control function, hereinafter referred to collectively as the SCP / SCF) 220. Accordingly, a signal 230 based on the communication control connection (SCCP), such as a signal based on the transaction capability application part (TCAP) or the advanced intelligent network (AIN), is transmitted from the SSF / SSP 210 to the SCP / SCF 220. The SCP / SCF 220 then determines the appropriate IN service associated with the dialed B number and can route the dialed short number. It is transformed into a destination number in 164 format. The forwardable destination number is then returned to the requesting SSF / SSP 210 via a further SCCP based signal 240. Using the received destination number, the call setup signal is forwarded to GMSC 80 associated with the received complete destination number (signal 250). In a manner similar to that previously described in FIG. 1, the GMSC 80 then sends a MAP based signal 110, eg, an SRI, to the associated HLR 100. The SRI signal 110 calls on the HLR 100 to request a roaming number representing the mobile station 20b therefrom. The HLR 100 then sends another MAP based signal 260 to the second MSC / VLR 30b currently serving the receiving mobile station 20b. A MAP-based signal 260, eg, a roaming number provision (PRN) signal, requests the second MSC / VLR 30b to provide a roaming number representing the second mobile station 20b moving within its coverage area. In response, the second MSC / VLR 20b provides the roaming number to the HLR 100 via a further MAP based signal 270. The HLR 100 then sends the received roaming number back to the GMSC 80 via a MAP based signal 120.
Using the received roaming number, GMSC 80 forwards the received incoming call connection to the second MSC / VLR 30b. As a result, another circuit call connection 280 is established between the GMSC 80 and the second MSC / VLR 30b. The receiving mobile station is then paged from the second MSC / VLR 20b and a wireless connection is established between them, allowing the first mobile station 20a to communicate with the receiving mobile station 20b.
As previously illustrated, the first telecommunications network for routing unstructured data is a second telecommunications used to establish a call connection with a mobile station. It is different from the network. Therefore, the IN service related to a specific mobile station and provided by the SCP / SCF cannot be used for data whose structure is not unified at present. As a result, the convenience and "information" provided by the IN service is missing in short message services or other data services where the behavior is not unified.
3 and 4, a first telecommunications network is shown interfacing with a second telecommunications network for providing IN service to a first mobile station 20a that originates an SMS message. . The first mobile station 20a sends an SMS message 330 to the serving first MSC / VLR 30a. Next, the application module 320 associated with the first MSC / VLR 30a determines whether the IN service needs to be performed on the received SMS message. There are basically two methods for making such a determination. The first determination method is to confirm whether or not the first mobile station 20a that transmits the SMS message is related to an applicable IN service. The second determination method is to confirm whether or not the second mobile station 20b that receives the SMS message is related to an applicable IN service. For example, the first mobile station 20a may be associated with PNP, and the number dialed at the first mobile station may be a short message (or extension number) representing the associated second mobile station 20b. As yet another example, consider the case where the second mobile station 20b is associated with a free telephone IN service, where all incoming call connections destined for the second mobile station 20b are subscribed to the second mobile station. Will be charged. Application module 320 need not determine which individual IN service needs to be implemented. All that the application module 320 needs to do is check to see if any IN service is associated with either the originating subscriber or the receiving subscriber.
In response to the confirmation decision, the first MSC / VLR 30a forwards the received SMS message to the SSF / SSP 210 associated with the determined subscriber (signal 350). One method for transferring such an SMS message is to include the received SMS message in an ISUP signal and connect the ISUP signal to the communication system No. 7 (SS7) Designated as user-to-user communication within a telecommunications network. Upon receipt of the transmitted ISUP signal, the SSF / SSP 210 subsequently transmits an SCCP-based signal 230 and queries the associated SCP / SCF 220. As fully described above, the SCP / SCF 220 is a centralized database that includes subscriber and capability information for providing the necessary IN services to its associated subscribers. As a result, the SCP / SCF 220 determines the appropriate call processing to be applied towards the received SMS message. As shown, for the PNP function, the SCP / SCF 220 forwards the dialed short number, for example, the second mobile station 20b, such as a mobile telephone subscriber integrated services digital network (MSISDN) number. Transform to a full destination number possible. The modified destination number is then provided to the SSF / SSP via another SCCP based signal 240. Using the provided destination number, the SSF / SSP 210 forwards the received SMS data to the associated SMS-C 50 over the connected SS7 telecommunications network. This can be accomplished simply by replacing the received ISUP signal, eg, the destination address in the IAM, to represent the full destination number provided.
In the conventional method, SMS-C then forwards the ISUP signal containing the received SMS data to the associated GMSC 80. Next, the GMSC 80 inquires the HLR 100 related to the received destination number in the same manner to confirm the current position of the receiving-side mobile station 20b (signal 110). The HLR 100 then sends another MAP based signal requesting a roaming number from the second MSC / VLR 20b currently serving the receiving mobile station 20b (signaling is shown in FIG. 3). Not shown in FIG. 2). When the roaming number is received from the second MSC / VLR 30b, the HLR 100 further transfers the received roaming number to the GMSC 80 via a signal 120 based on another MAP. Using the received roaming number representing the receiving mobile station currently moving within the coverage area of the second MSC / VLR, the GMSC 80 sends the received ISUP signal including the SMS data to the second MSC / VLR 30b. It can be forwarded (signal 130). The second MSC / VLR 30b then transmits the received SMS data to the receiving mobile station 20b on the SDCCH channel.
As shown, the first mobile station 20a can perform non-conversational data communication while utilizing its associated IN service. As a result, the individual conversation connection network and the data communication network whose structure is not unified are integrated into a single network, and data whose structure is not unified can access the IN service.
Reference is now made to FIG. 5, which illustrates the steps performed to communicate SMS data using an existing IN service in accordance with the teachings of the present invention. In step 400, the mobile station receives an instruction to send an outgoing SMS message from the associated mobile subscriber to a particular B member. Instead of sending the received SMS message directly to the associated SMS-C, the application module associated with the mobile station is either the calling subscriber or the dialed B member is associated with the IN service. A determination of whether or not is made at step 410. There is no need for the application module to determine exactly which IN should be performed for this particular SMS message. Such a decision should be made later by the SCP. All that is required for this application module is to determine whether any IN service is associated with the receiver or sender. The application module can determine whether the dialed B number is associated with the IN service by evaluating the syntax of the dialed B number. Dialed B number is full E. If not a 164 formatted destination number, such a number should represent a short number associated with the PNP function. The dialed number may also include a specific area code, such as “800” or “900”, where the dialed number indicates a free or free phone number. The dialed B number may also be a service code associated with a particular IN service.
After making such a determination, if neither the calling subscriber nor the dialed B number is associated with the IN service (NO determination link 470), the received SMS data is converted to the B number dialed in the conventional manner. Routed to the associated SMS-C.
Conversely, in response to a positive determination (YES determination link 460), the serving MSC / VLR identifies the appropriate IN telecommunications node. If the calling subscriber is associated with IN service, the IN telecommunications node, eg, SSP, associated with the calling subscriber is identified. If the B number or receiving subscriber is associated with the IN service, the IN telecommunications node associated with the receiving subscriber is similarly identified at step 420. The received SMS data contained in the ISUP signal is then routed to the identified SSP at step 430. The SSP then queries the associated SCP for a forward command at step 440. The SCP then determines exactly which IN service needs to be performed. By performing the appropriate IN service, the SCP verifies how to process the ISUP signal containing SMS data received at the SSP. The instruction thus confirmed is then returned to the SSP. Utilizing the received instruction, eg, the complete destination number associated with the dialed short number, the SSP reroutes the message to the appropriate SMS-C associated with the receiving destination number.
While the submitted embodiments of the method and apparatus of the present invention have been illustrated in the accompanying drawings and described in the foregoing detailed description, the present invention is not limited to the disclosed embodiments, and various It will be understood that arrangements, modifications, and substitutions may be made without departing from the spirit of the invention as defined in the following claims.

Claims (17)

A method for integrating an intelligent network component and a short message service (SMS) component within a mobile telecommunications network, the method comprising:
Receiving, at a first telecommunications node associated with the mobile telecommunications network, an instruction to send SMS data to a receiving mobile subscriber from a sending mobile subscriber;
In response to determining whether either the sending mobile subscriber or the receiving subscriber is subscribed to a service provided by an intelligent network, and in response to a positive determination;
Identifying a second telecommunications node associated with the intelligent network, and transmitting the SMS data from the first telecommunications node to the second telecommunications node;
The transmitted SMS data is processed by a service provided by an intelligent network, where the originating mobile subscriber can communicate SMS data while utilizing the service provided by the intelligent network. And
Transferring the processed SMS data from the second telecommunications network to a third telecommunications network associated with the SMS network, and transferring the forwarded SMS data from the third telecommunications node to the receiving side; Transmitting to a mobile subscriber. 2. The method of claim 1, wherein the first telecommunications node includes a mobile communication switching center (MSC). The method of claim 1, wherein the second telecommunications node includes a service switching point (SSP). The method of claim 1, wherein the third telecommunications node comprises a short message service center (SMS-C). The method of claim 1, wherein said step for determining whether said receiving mobile subscriber is subscribed to a service provided by an intelligent network further comprises: Assessing the tax. The method of claim 1, wherein said step of transmitting said SMS data from said first telecommunications node to said second telecommunications node further comprises sending said SMS data to a digital integrated service network user part (ISUP). Said method comprising transporting using the signal. The method of claim 1, wherein the service provided by the intelligent network further comprises a personal number plan (PNP), outgoing call prevention function, private user group function, constraint invalidation function, and call diversion function. The method comprising a selected one of: The method of claim 1, wherein the step of processing the transmitted SMS data further comprises querying an intelligent network service control point (SCP). 2. The method of claim 1, wherein the transmission of the forwarded SMS data from the third telecommunications node to the receiving mobile subscriber further includes the receiving mobile subscriber currently roaming. Determining whether or not. A mobile telecommunications network for integrating an intelligent network component and a short message service (SMS) component, wherein said mobile telecommunications network is associated with said mobile telecommunications network and is from a transmitting mobile subscriber A first telecommunications node for receiving an instruction to send SMS data to a receiving mobile subscriber, the first telecommunications node further comprising the transmitting mobile subscriber or the receiving subscriber A device for determining whether one of the subscribers subscribes to a service provided by an intelligent network;
In response to a positive determination, an apparatus for identifying a second telecommunications node associated with the intelligent network and the SMS data from the first telecommunications node to the second telecommunications node Said first telecommunications node comprising a device for transmitting to,
A third telecommunications network associated with the intelligent network for processing SMS data received from a second telecommunications node with a service provided by the intelligent network, wherein the originating mobile The third telecommunications network in which the subscriber is able to communicate SMS data while utilizing the services provided by the intelligent network, and the processed SMS received from the third telecommunications node A mobile telecommunications network including a fourth node associated with the SMS network for transmitting data to the receiving mobile subscriber. The mobile telecommunications network according to claim 10, wherein the first telecommunications node includes a mobile communications switching center (MSC). 11. The mobile telecommunications network according to claim 10, wherein the second telecommunications node includes a service switching point (SSP). 11. The mobile telecommunications network of claim 10, wherein the third telecommunications node includes a service control point (SCP). The mobile telecommunications network of claim 10, wherein the fourth telecommunications node includes a short message service center (SMS-C). 11. A mobile telecommunications network according to claim 10, wherein it is determined whether either the transmitting mobile subscriber or the receiving subscriber is subscribed to a service provided by an intelligent network. Said mobile telecommunications network further comprising: a device for evaluating dialed B number syntax. 11. The mobile telecommunications network according to claim 10, wherein the device for transmitting the SMS data from the first telecommunications node to the second telecommunications node further comprises the SMS data. A mobile telecommunications network comprising a device for transport using a digital integrated service network user part (ISUP) signal. 11. The mobile telecommunications network according to claim 10, wherein the service provided by the intelligent network further includes a personal number plan (PNP), an outgoing call prevention function, a private user group function, and a constraint invalidation function. And the mobile telecommunications network comprising a selected one of call diversion functions.

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